Sexual rest and post‐meiotic sperm ageing in house mice

Fertilization by aged sperm can result in adverse fitness consequences for both males and females. Sperm storage during male sexual rest could provide an environment for post‐meiotic sperm senescence causing a deterioration in the quality of stored sperm, possibly impacting on both sperm performance...

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Bibliographic Details
Published in:Journal of evolutionary biology 2015-07, Vol.28 (7), p.1373-1382
Main Authors: Firman, R. C, Young, F. J, Rowe, D. C, Duong, H. T, Gasparini, C
Format: Article
Language:English
Subjects:
age
Aging
Animal reproduction
Animals
Cell division
DNA
DNA Damage
DNA Fragmentation
Evolutionary biology
experimental design
Female
females
island populations
Male
males
Meiosis
mice
Mice - genetics
Mice - physiology
Mus musculus
Mus‐halomax
polyandry
population
post‐copulatory sexual selection
Rodents
senescence
Sexual Behavior, Animal
sexual selection
Sperm
sperm competition
Sperm Motility
sperm quality
spermatozoa
Spermatozoa - physiology
swimming
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Summary:Fertilization by aged sperm can result in adverse fitness consequences for both males and females. Sperm storage during male sexual rest could provide an environment for post‐meiotic sperm senescence causing a deterioration in the quality of stored sperm, possibly impacting on both sperm performance (e.g. swimming ability) and DNA quality. Here, we compared the proportion of sperm with fragmented DNA, an indicator of structural damage of DNA within the sperm cell, among males that had been sexually rested for approximately 2 months, to that of males that had mated recently. We found no evidence of intra‐epididymal sperm DNA damage or any impairment in sperm performance, and consequently no evidence of post‐meiotic sperm senescence. Our results suggest that male house mice are likely to possess mechanisms that function to ensure that their sperm reserves remain stocked with ‘young’, viable sperm during periods of sexual inactivity. We also discuss the possibility that our experimental design leads to no difference in the age of sperm among males from the two mating treatments. Post‐meiotic sperm senescence is especially relevant under sperm competition. Thus, we sourced mice from populations that differed in their levels of post‐copulatory sexual selection, enabling us to gain insight into how selection for higher sperm production influences the rate of sperm ageing and levels of DNA fragmentation. We found that males from the population that produced the highest number of sperm also had the smallest proportion of DNA‐fragmented sperm and discuss this outcome in relation to selection acting upon males to ensure that they produce ejaculates with high‐quality sperm that are successful in achieving fertilizations under competitive conditions.
ISSN:1010-061X
1420-9101
DOI:10.1111/jeb.12661